An apparatus and method is disclosed for providing a collapsible support structure strut, which may include a strut member; a hollow tubular terminal end portion of the strut member having an inner surface; and a detachable looped eyelet having at least one loop and a pair of extending legs, the legs being springedly biased to engage the tubular terminal end of the strut, thereby frictionally holding the looped eyelet in place at the terminal end of the strut. The apparatus and method may also employ a holding plug, with first and second holding groove opposingly placed in the periphery of the holding plug, having at least a portion thereof that is shaped and sized to frictionally engage the inner surface of the tubular terminal end of the strut, to frictionally hold the holding plug in engagement with the strut. The detachable looped eyelet may also have at least two loops.
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57. A method of forming a collapsible support structure, comprising:
providing a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; wherein the first ends of the first elongated rigid member and the second elongated rigid member are hingedly joined; providing a collapsible elongated member comprising: an elongated flexible tensioning member, connected between the second end of the first elongated rigid member and the second end of the second elongated rigid member; at least two hollow tubular rigidizing members extending along the length of the elongated flexible tensioning member; and rigidizing the first and second hollow tubular rigidizing members for selectively providing rigidity in combination with the elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting the at least two hollow tubular rigidizing members to form a collapsible elongated tubular member, and having the elongated flexible tensioning member disposed therethrough to allow tension to be applied between the respective second ends of the first and second elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second elongated rigid members and wherein the first and second elongated rigid members and said the collapsible elongated member are all hingedly jointed in flexible joints by the elongated flexible tensioning member, which the flexible joints also interconnect the adjacent interconnected frame sections. 58. A method of forming a collapsible support structure, comprising:
providing a plurality of interconnected frame sections each comprising: a first elongated one-piece rigid member having a first end and a second end; a second elongated one-piece rigid member having a first end and a second end; wherein the first ends of the first elongated one-piece rigid member and the second elongated one-piece rigid member are hingedly joined; providing a collapsible elongated member comprising: an elongated flexible tensioning member, connected between the second end of the first one-piece elongated rigid member and the second end of the second one-piece elongated rigid member; at least two hollow tubular rigidizing members extending along the length of the elongated flexible tensioning member; and rigidizing the first and second hollow rigidizing tubular members for selectively providing rigidity in combination with the elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting the at least two hollow tubular rigidizing members to form a collapsible elongated tubular member, and having the elongated flexible tensioning member disposed therethrough to allow tension to be applied between the respective second ends of the first and second elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second elongated rigid members; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongate tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
1. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; wherein the first ends of the first elongated rigid member and the second elongated rigid member are hingedly joined; a collapsible elongated member comprising: an elongated flexible tensioning member connected between the second end of the first elongated rigid member and the second end of the second elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the elongated flexible tensioning member; and a rigidizing sleeve member slideably mounted on the first or the second hollow tubular rigidizing member and sized to slideably engage the other of the first and second hollow tubular rigidizing member when the first and second hollow tubular rigidizing members are essentially axially aligned and the rigidizing sleeve member is positioned to slideably engage each of the hollow tubular rigidizing members to form a collapsible elongated tubular member extending essentially between the second ends of each of the first and second elongated rigid members and having the elongated flexible tensioning member axially dispose therethrough; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
8. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated one-piece rigid member having a first end and a second end; a second elongated one-piece rigid member having a first end and a second end; wherein the first ends of the first elongated one-piece rigid member and the second elongated one-piece rigid member are hingedly joined; a collapsible elongated member comprising: an elongated flexible tensioning member connected between the second end of the first elongated rigid member and the second end of the second elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the elongated flexible tensioning member; and a rigidizing sleeve member slideably mounted on the first or the second hollow tubular rigidizing member and sized to slideably engage the other of the first and second hollow tubular rigidizing member when the first and second hollow tubular rigidizing members are essentially axially aligned and the rigidizing sleeve member is positioned to slideably engage each of the hollow tubular rigidizing members to form a collapsible elongated tubular member extending essentially between the second ends of each of the first and second elongated one-piece rigid members and having the elongated flexible tensioning member axially disposed therethrough; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
36. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated one-piece rigid member having a first end and a second end; a second elongated one-piece rigid member having a first end and a second end; wherein the first ends of the first elongated one-piece rigid member and the second elongated one-piece rigid member are hingedly joined; a collapsible elongated member comprising: an elongated flexible tensioning member, connected between the second end first elongated one-piece rigid member and the second end of the second one-piece elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the elongated flexible tensioning member; second hollow tubular rigidizing member extending along essentially the remainder of the length of the elongated flexible tensioning member; and a rigidizing means for selectively providing rigidity in combination with the elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting the separate first and second hollow tubular rigidizing members to form a collapsible elongated tubular member, and having the elongated flexible tensioning member disposed therethrough to allow tension to be applied, between the respective second ends of the first and second one-piece one piece elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second one-piece elongated rigid members; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
29. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; wherein the first ends of the first elongated rigid member and the second elongated rigid member are hingedly joined; a collapsible elongated member comprising: an elongated flexible tensioning member, connected between the second end of the first elongated rigid member and the second end of the second elongated rigid member, a first hollow tubular rigidizing member extending along a portion of the length of the elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the elongated flexible tensioning member; a rigidizing sleeve slideably mounted to said first hollow or second hollow tubular rigidizing members, said rigidizing sleeve being sized to slide to a position at which it enegages both said first hollow and said second hollow tubular rigidizing members to thereby maintain axial alignment between said first hollow and said second hollow tubular rigidizing members and provide rigidity in combination with the elongated flexible tensioning member by forming said collapsible member into a rigid hollow tubular elongated member and having the elongated flexible tensioning member axially disposed therethrough to allow tension to be applied between the respective second ends of the first and second elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second elongated rigid member; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
43. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; a third elongated rigid member having a first end and a second end; wherein the first ends of the respective first elongated rigid member and the second elongated rigid member are hingedly joined, and the second ends of the respective second elongated rigid member and the third elongated rigid member are hingedly attached; a first and a second collapsible elongated member, each comprising: an elongated flexible tensioning member connected respectively between the second end of the first elongated rigid member and the second end of the second elongated rigid member and between the hinged connection of the first ends of the respective first and second elongated rigid members and the first end of the third elongated rigid member; a first and a second rigidizing means for selectively providing rigidity in combination with the respective first and second elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting at least two separate hollow tubular members to form a collapsible elongated tubular member, and having the respective elongated flexible tensioning member disposed therethrough to allow tension to be applied between the respective second ends of the first and second elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second elongated rigid members respecting the first rigidizing means, and to allow tension to be applied between the respective first ends of the second and third elongated rigid members while maintaining a fixed separation between the respective first ends of the second and third elongated rigid members respecting the second rigidizing means; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
59. A method of providing a collapsible support structure, comprising:
providing a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; a third elongated rigid member having a first end and a second end; wherein the first ends of the respective first elongated rigid member and the second elongated rigid member are hingedly joined, and the second ends of the respective second elongated rigid member and the third elongated rigid member are hingedly attached; providing a first and a second collapsible elongated member each comprising: a first elongated flexible tensioning member, connected between the second end of the first elongated rigid member and the second end of the second elongated rigid member and a,second elongated flexible tensioning member, connected between the first end of the second elongated rigid member and the first end of the third elongated rigid member; at least two hollow tubular rigidizing members each extending along the length of the respective elongate flexible tensioning member; and rigidizing the at least two hollow tubular rigidizing members for selectively providing rigidity in combination with the respective elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting the at least two hollow tubular rigidizing members to form a collapsible elongated tubular member, and having the elongated flexible tensioning member disposed therethrough allow tension to be applied between the respective second ends of the first and second elongated rigid members while maintaining a fixed separation between the respective second ends the first and second elongated rigid members and between the respective first ends of the second and third elongated rigid members while maintaining a fixed separation between the respective first ends of the second and third elongated rigid members; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
50. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first one-piece elongated rigid member having a first end and a second end; a second one-piece elongated rigid member having a first end and a second end; a third one piece elongated rigid member having a first end and a second end; wherein the first ends of the respective first one-piece elongated rigid member and the second one-piece elongated rigid member are hingedly joined, and the second ends of the respective second one-piece elongated rigid member and the third one-piece elongated rigid member are hingedly attached; a first and a second collapsible elongated member, each comprising: an elongated flexible tensioning member connected respectively between the second end of the first one-piece elongated rigid member and the second end of the second one-piece elongated rigid member and between the hinged connection of the first ends of the respective first and second one-piece elongated rigid members and the first end of the third elongated rigid member; a first and a second rigidizing means for selectively providing rigidity in combination with the respective first and second elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connected at least two separate hollow tubular member to form a collapsible elongated tubular member, and having the respective elongated flexible tensioning member disposed therethrough to allow tension to be applied between the respective second ends of the first and second one-piece elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second one-piece elongated rigid members respecting the first rigidizing means, and to allow tension to be applied between the respective first ends of the second and third one-piece elongated rigid members while maintaining a fixed separation between the respective first ends of the second and third one-piece elongated rigid members respecting the second rigidizing means; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
15. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; a third elongated rigid member having a first end and a second end; wherein the first ends of the respective first elongated rigid member and the second elongated rigid member are hingedly joined, and the second ends of the respective second elongated rigid member and the third elongated rigid member are hingedly attached; a first and a second collapsible elongated member, each comprising: an elongated flexible tensioning member connected respectively between the second end of the first elongated rigid member and the second end of the second elongated rigid member and between the hinged connection of the first ends of the respective first and second elongated rigid members and the first end of the third elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the respective elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the respective elongated flexible tensioning member; and a rigidizing sleeve member slideably mounted on the first or the second hollow tubular rigidizing member and sized to slideably engage the other of the first and second hollow tubular rigidizing members when the first and second hollow tubular rigidizing members are essentially axially aligned and the rigidizing sleeve member is positioned to slideably engage each of the hollow tubular rigidizing members to form a collapsible elongated tubular member extending essentially between respectively the second ends of each of the first and second elongated rigid members and the hinged connection of the first ends of the first and second elongated rigid members and the first end of the third elongated rigid member, a having the respective elongated flexible tensioning member axially disposed therethrough; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
60. A method of forming a collapsible support structure, comprising:
providing a plurality of interconnected frame sections each comprising: a first one-piece elongated rigid member having a first end and a second end; a second one-piece elongated rigid member having a first end and a second end; a third one-piece elongated rigid member having a first end and a second end; wherein the first ends of the respective first one-piece elongated rigid member and the second one-piece elongated rigid member are hingedly joined, and the second ends of the respective second one-piece elongated rigid member and the third one-piece elongated rigid member are hingedly attache; providing a first and a second collapsible elongated member each comprising: a first elongated flexible tensioning member, connect between the second end of the first one-piece elongated rigid member and the second end of the second one-piece elongated rigid member and a second elongated flexible tensioning member, connected between the first end of the one-piece second elongated rigid member and the first end of the third one-piece elongated rigid member; at least two hollow tubular rigidizing members each extending along the length of the respective elongate flexible tensioning member; and rigidizing the at least two hollow tubular rigidizing members for selectively providing rigidity in combination with the respective elongated flexible tensioning member by forming a rigid hollow tubular rigidizing sleeve slidably connecting at least two hollow tubular rigidizing members to form a collapsible elongated tubular member, and having the respective/elongated flexible tensioning member disposed therethrough to allow tension to be applied between the respective second ends of the first and second one-piece elongated rigid members while maintaining a fixed separation between the respective second ends of the first and second one-piece elongate rigid members and to allow tension to be applied between the respective first ends of the second and third one-piece elongated rigid members while maintaining a fixed separation between the respective first ends of the second and third one-piece elongated rigid members; and
wherein said elongated rigid members and said collapsible elongate member are all hingedly jointed in flexible joints by said elongate tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
22. A collapsible support structure, comprising:
a plurality of interconnected frame sections each comprising: a first one-piece elongated rigid member having a first end and a second end; a second one-piece elongated rigid member having a first end and a second end; a third one piece elongated rigid member having a first end and a second end; wherein the first ends of the respective first one-piece elongated rigid member and the second one-piece elongated rigid member are hingedly joined, and the second ends of the respective second one-piece elongated rigid member and the third one-piece elongated rigid member are hingedly attached; a first and a second collapsible elongated member, each comprising: a first and a second elongated flexible tensioning member connected respectively between the second end first one-piece elongated rigid member and the second end of the second one-piece elongated rigid member and between the hinged connection of the first ends of the respective first and second one-piece elongated rigid members and the first end of the third one-piece elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the respective elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the respective elongated flexible tensioning member; and a rigidizing sleeve member slideably mounted on the first or the second hollow tubular rigidizing member and sized to slideably engage the other of the first and second hollow tubular rigidizing members when the first and second hollow tubular rigidizing members are essentially axially aligned and the rigidizing sleeve member is positioned to slideably engage each of the hollow tubular rigidizing members to form a collapsible elongated tubular member extending essentially between respectively the second ends of each of the first and second one-piece elongated rigid members and the hinged connection of the first ends of the first and second one-piece elongated rigid members and the first end of the third one-piece elongated rigid member, and having the respective elongated flexible tensioning member axially disposed, therethrough; and wherein said elongated rigid members and said collapsible elongated member are all hingedly jointed in flexible joints by said elongated tensioning member, which flexible joints also interconnect the adjacent interconnected frame sections.
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The present invention relates to the field of collapsible support structures.
The present invention is related to the application entitled COLLAPSIBLE STRUCTURAL FRAME STRUT WITH POP-IN-CONNECTOR, filed on the same date as the present invention with the same inventor and under the disclosure of which is hereby incorporated by reference.
U.S. Pat. Nos., 3,968,808 and 4,026,313, each entitled COLLAPSIBLE SELF-SUPPORTING STRUCTURE, issued to Ziegler, respectively on Jul. 13, 1976 and May 31, 1977 each disclose collapsible structural support frames having a geodesic form. The '808 patent discloses: " . . . a collapsible, self-supporting structure is disclosed wherein the structure is made up of a network of rod elements pivotally joined at their ends and forming scissors-like pairs in which rod element crossing points are pivotally joined. The network consists of a plurality of pairs of inner and outer apical points where groups of radiating rods are pivotally joined. The outer apical points lie on a surface of revolution such as a spherical section and each group of rods radiating from an inner apical point lie essentially in a common plane whereby to effect the self-supporting action. For any pair of apical points the group of rods defining the inner apical point radiate in their common plane and join rods of other groups at the surrounding outer apical points." Abstract. The '808 patent states that " . . . a preferred universal pivotal connection at the apical points is illustrated in FIGS. 12-14. As shown, each element has a double-ended fan flot 130 through which a wire ring 132 passes so as to allow universal movement of the rod elements. In the embodiment of FIG. 1, there may be as few as three elements intersecting at an apical point and as many as six elements, as shown." Col 5, line 66-Col. 6, line 4. The '808 patent also notes that: " . . . referring more particularly at this time to FIG. 25, certain principles of the construction according to FIG. 1 will be apparent therefrom. The FIG. 1 construction may be further explained in terms of conventional geodesic nomenclature. Specifically, the FIG. 1 embodiment is constructed as a four frequency icosahedron in which one of the triangular regions is illustrated in FIG. 25 and, in FIG. 26, all of the triangular regions are shown but laid out in flat form so as to give a better understanding of the elements involved." Col. 7, lines 53-61. Similarly, the '313 patent discloses a " . . . self-supporting structures and panels of diverse shapes are disclosed in which basic assemblies of crossed rod elements are employed to achieve the desired shape. Further, the crossing points of crossed rod elements in the structure involved may include limited sliding connections which effect transfer of collapsing force to other crossing points which are pivotally joined. An improved hub structure for pivotally joining ends of the rod elements at the outer and inner apical points is also disclosed." Abstract.
U.S. Pat. No. 6,089,247 " . . . a collapsible frame for use in erecting tents, insect screen rooms, shade awnings, canopies and the like at camp sights, back yard patios and other outdoor venues. The collapsible frame includes a plurality of telescopic legs for providing vertical structural support and a plurality of comer pin joints with one of the pin joints fixedly mounted upon a corresponding one of each of the telescopic legs. A plurality of horizontal support arms is included with one of the arms positioned between every adjacent pair of telescopic legs and attached to the corresponding comer pin joints. A mid-span hinge which includes a sliding sleeve is centrally positioned along each of the horizontal support arms. The mid-span hinge is flexibly collapsible when the sleeve is disengaged and is rigidly inflexible when the sleeve is engaged. A bottom slider is adjustably mounted upon each of the telescopic legs and is attached to the horizontal support arms which are connected to the corresponding comer pin joint. Finally, a plurality of top support members is included where each is anchored in a corresponding comer pin joint for stabilizing the frame. In the present invention, the telescopic legs, mid-span hinges and bottom sliders each cooperate to collapse the frame." Abstract. The '247 patent also disclosed that " . . . centrally positioned along each of the four horizontal support arms 162 is a mid-span hinge 188 clearly shown in FIGS. 1, 3 and 4. Each of the four horizontal support arms 162 is circular and comprised of a lightweight material such as, for example, aluminum. The length of each of the four horizontal support arms 162 is interrupted approximately at the center of the span thereof forming two opposing, open-ended mid-span terminal ends 190 and 192 as shown in FIG. 3. Extending outward from each of the open-ended terminal ends 190 and 192 is a pair of connectors 194 and 196 having penetrations formed therethrough. Connectors 194 and 196 may be comprised of plastic having an outer surface which exhibits a low coefficient of friction such as Teflon. Positioned between the pair of connectors 194 and 196 is a pair of parallel positioned plates 198 and 200 swivelly attached to the corresponding connectors 194 and 196, respectively, of each of the horizontal support arms 162. The parallel positioned plates 198 and 200 are attached to each of the corresponding connectors 194 and 196 as by, for example, use of a pair of rivets 202 through the penetrations formed in the connectors 194 and 196 as is shown in FIG. 3. Mounted over each of the horizontal support arms 162 and the mid-span hinge 188 is a sliding sleeve 204 shown in FIGS. 1, 3 and 4. The sliding sleeve 204 is cylindrical in shape and can be comprised of aluminum or a high strength plastic material such as polyvinylchloride (PVC). Further, the sliding sleeve 204 can have an inner surface (not shown) coated with a low friction material such as Teflon to minimize resistance to sliding. In the view of FIG. 3, the sliding sleeve 204 is disengaged and the mid-span hinge 188 is exposed and capable of swivelling. Under these conditions, the mid-span hinge 188 is flexibly collapsible and cooperates with the telescopic legs 108 and the bottom slider 130 to enable the collapsible frame 100 to collapse into the reduced size posture as clearly shown in FIG. 9. Located on the surface of the horizontal support arm 162 is a first mechanical stop 206 as shown in FIG. 3. The first mechanical stop 206 serves to limit the travel of the sliding sleeve 204 away from the mid-span hinge 188." Col 7, line 47-Col. 8, line 11.
The '247 patent goes on to explain that " . . . each of the top support members 174 comprise two portions best shown in FIG. 6. An outer portion 220 is shown fitting over the end of an inner portion 222 at a lip 224. With this arrangement, the inner portion 222 can be separated from the outer portion 220 under pressure. Running the length through the interior of each of the top support members 174 is an elastic cord 226 as shown in FIG. 6. The elastic cord 226 can be connected on each of its ends to the interior of each of the top support members 174 in any suitable manner such as, for example, by tying. The function of the elastic cord 226 is to urge the mating of the outer portion 220 with the inner portion 222 of the top support member 174 while simultaneously enabling them to be separated. This design facilitates the collapsing of the superstructure 106 but also prevents the outer portion 220 from being separated from the inner portion 222." Col. 9, lines 7-22.
U.S. Pat. Nos. 5,797,412 and 5,632,293, each entitled COLLAPSIBLE SHELTER WITH FLEXIBLE, COLLAPSIBLE CANOPY, Aug. 25, 1998 and May 27, 1997 to Carter, disclose that " . . . the collapsible shelter includes a truss and canopy framework that permits a flexible, collapsible canopy to be moved between a raised position and a lowered position. The collapsible shelter includes at least three legs supporting flexible poles removably mounted to the tops of the legs and forming the framework of the canopy. X-shaped truss pairs of link members are connected to each of the legs on each side of the shelter between adjacent legs." Abstract. The '412 and '293 patents also disclose that "the present invention provides for a collapsible shelter with a flexible, collapsible canopy framework that can be raised to provide increased headroom, strength and stability, and can be lowered to provide a reduced profile to the wind. The invention provides for a collapsible shelter having at least three legs supporting a collapsible canopy supported by flexible poles removably mounted to the tops of the legs. At least two perimeter truss pairs of link members are connected to each of the legs on each side of the shelter between two adjacent legs. Each of the X-shaped perimeter truss pairs of link members are essentially identical, and include two link members connected together by a central pivot, with the first link member having an outer end connected to the upper end of one leg, and the second link member having an outer end slidably connected to the leg. The first and second link members are pivotally connected together in a scissors configuration so as to be extendable from a first collapsed position extending horizontally between two of the legs to a second extended position extending between the legs. The two perimeter truss pairs of link members on each side are connected together at their inner ends. The collapsible shelter preferably has four legs, but can also have three, five, or more legs. At least two flexible pole members are also provided that are removably mountable to the upper ends of the legs of the shelter to extend across the shelter to form a structure for a flexible, collapsible canopy. The canopy also preferably includes a cover secured to the upper ends of the legs. In a currently preferred embodiment of the invention, the flexible pole members comprise a plurality of segmented poles formed from a plurality of pole sections that are removably connectable together, and that are removably mounted in indexing holes in hinge means affixed to the upper ends of the legs, and the pole members are similarly removably connected together by a central hub that is preferably permanently connected to an inner end of one of the pole members. When the pole members are connected together and inserted in the hinge means of the legs, the pole members forming the canopy can flex and move between a normal raised position and a lowered position by exertion of a downward force on the top of the canopy, such as by a strong wind, to reduce the profile of the shelter that would be exposed to the wind and still provide rain run off. To facilitate this aspect of the invention the flexible poles in a currently preferred embodiment are made of a composite material such as fiberglass, but a variety of materials such as metal tubing and other composites can be used for such purposes. Col. 1, line 53-Col. 2, line 34.
The '412 and '293 patents go on to disclose that " . . . in the currently preferred embodiment, four flexible pole members 82 are provided, corresponding to the number of legs, as is illustrated in FIGS. 6, 7 and 12. While a variety of materials such as metal tubing, composite tubing (tubing made of resin impregnated fibers) or solid composite poles may be used, the flexible pole members currently preferably each comprise segmented flexible poles formed from two fiberglass pole sections 84 that are removably connectable together, with an inner end 86 of one of the pole sections bearing a metal jacket 88, made of aluminum or steel for example, into which the adjacent inner end 90 of the other pole section is insertable, to join the pole sections together. The pole sections are preferably hollow, and an elastic cord 92 runs through the longitudinal centers of the pole sections. An outer end 94 of the cord of each pole member extends through an indexing aperture 96 in the hinge means, and is secured to the hinge means such as by a knot. The inner end 98 of the cord is secured to the inner end 100 of the pole member, such as by a knot, so that the pole sections of the pole member are biased together. The pole members are removably receivable for mounting in the indexing apertures 96 in the hinge means affixed to the upper ends of the legs. In a currently preferred embodiment, a central hub member 102, having four symmetrically located indexing holes 104 for removably receiving the inner ends of three pole members, and for permanently receiving the inner end of a fourth pole member, mounted in a hub indexing hole, such as by an adhesive such as epoxy, for example, for joining the pole members together." Col 5, lines 14-38.
U.S. Pat. No. 4,074,682, entitled COLLAPOSIBLE TENT FRAME, issued to Yoon on Feb. 21, 1978 discloses " . . . a collapsible tent frame has all of its parts permanently connected to one another to provide a complete single unit and is easily changeable between a fully deployed condition, a partially deployed condition and a compact collapsed condition by simple manual manipulations. In either its fully deployed condition or its partially deployed condition, the frame is adapted to receive and support a tent fabric or other covering to provide a shelter lending itself to a variety of uses." Abstract. The '682 patent also discloses that " . . . the frame is unitized insofar as all of its parts are permanently connected with one another and it is shiftable between a compact collapsed condition and at least one deployed condition." Col 1, line 67-Col. 2, line 2. In addition the disclosure of the '682 patent notes that " . . . a more specific aspect of the invention resides in each leg of the frame including an inboard section, an intermediate section and an outboard section with the outboard section being pivotally connected with the intermediate section for movement relative to the intermediate section between a folded condition and a spread condition. The intermediate section is also pivotally connected to the inboard section for pivotal movement between folded and spread conditions relative to the inboard section; and likewise, as previously mentioned, the inboard section is movable relative to the hub between deployed and collapsed positions. When all of the inboard sections are deployed relative to the hub and all of the intermediate sections are spread relative to the inboard sections, the outboard sections may be either spread relative to the intermediate sections to provide a fully deployed frame providing one form of structure, or the outboard sections may be folded relative to the intermediate sections to provide a partially deployed frame providing another form of structure. In either the fully deployed condition or the partially deployed condition of the frame, struts extending between adjacent pairs of legs aid in controlling the angular spacing of the legs and in thus rigidifying the frame, the struts each being made of two arms pivotally connected to one another and to their associated legs to permit collapsing of the frame." Col 2, lines 26-51. The specification of the '682 patent goes on to say that " . . . In the deployed condition of the frame, the arms 74, 74 of each strut are locked in their relatively aligned positions shown in FIGS. 2 and 16 by a suitable releasable locking means such as the sleeve 80 shown in FIGS. 13, 14 and 15. That is, in the aligned and locked arm situation of FIG. 13, the sleeve 80 fits over the joint between the two arms to prevent relative pivotal movement between such arms; but, the sleeve is slidable to the position of FIG. 15 at which the joint is freed to allow relative rotation between the arms. A spring 82 in the sleeve frictionally holds the sleeve to whatever position it is moved." Col 5, lines 32-41.
U.S. Pat. No. 5,930,971, entitled BUILDING CONTRRUCTION WITH TENSION SUPPORT SYSTEM, issued to Ethridge on Aug. 3, 1999 discloses " . . . a structural system for a building wherein multiple elongate rigid structural members, in the nature of posts and beams, include internal tensioning cables which, upon an end joining of the structural members, are interlocked and tensioned to each other and relative to a fixed foundation." Abstract. The specification of the '971 patent goes on to say that " . . . basically, the construction system utilizes a plurality of rigid, compression-accommodating structural members, preferably tubular, defining upright support posts, roof beams, cross beams, and the like. The rigid structural members are stabilized by elongate tension members, generically herein referred to as cables,received through each of the structural members and end joined, upon a proper tensioning thereof, at or immediately adjacent the adjoining ends of the structural members. The joined cables ultimately extend through uprights and are in turn anchored to an underlying foundation either in the nature of a solid cast concrete slab with anchoring loops extending therefrom, or individually cast footings associated with each upright." Col. 1, lines 40-53.
U.S. Pat. No. 6,028,570, entitled FOLDING PERIMETER TRUSS REFLECTOR, ISSUED TO Gilger et al. on Feb. 22, 2000 discloses a "collapsible support structures, fold-up perimeter trusses, principally for deployable high frequency parabolic antennas used in spacecraft." Col. 1, lines 5-7. U.S. Pat. No. 5,871,026, issued to Lin on Feb. 16, 1999, entitled UMBRELLA SHAPE TWO LAYERS FOLDABLE TENT, disclosed a "two layers half automatic foldable tent is comprised of a framework, an umbrella surface, and a tent cloth. The framework is enclosed on the outside of the tent, while the umbrella surface is expanded on the framework above the tent cloth, wherein the framework is presented as an expanding structure. The opening and closing of the umbrella frame is completed by a controlling rope. Any user may easily install the tent, the lower primary frame of the umbrella frame may be folded upwards as the framework is closed, thus it may be stored conveniently and may be carried. Another, since in the present invention, the umbrella surface and tent cloth are designed as the two layers type thus the sunlight, rain water and snow will not contact the tent directly, and the people within the tent will be safe and comfortable and the lifetime of a tent is prolonged." Abstract.
U.S. Pat. No. 4,998,552, entitled GEODETIC TENT STRUCTURE, issued to Niksic et al on Mar. 12, 1991, discloses a "self supporting collapsible tent structure having a tension bearing polygonal shaped floor member defining a first tent level, a plurality of hub members each carrying a plurality of sockets which are pivotal about axes which are co-planer and are interrelated one to the other as the sides of polygon, a series of said hub members disposed in a plane at a second tent level which is spaced apart from said first tent level and whose sockets are pivotal in a first direction, and additional series of said hub members disposed in a plane at a third tent level which is spaced apart from said second tent level and whose sockets are pivotal in a second direction, opposite to the said first direction, a single, apex forming hub member disposed at a fourth tent level and whose sockets are pivotal in said first direction, a first plurality of compression rods, the ends of which are seated in the said sockets of the hub members in slightly curved polygonal planes defined and bounded by the rod members and a second plurality of compression rods, one end of which are seated in sockets of the hub members at the second tent level and the other end of which are connected to the perimeter of the floor member." abstract.
U.S. Pat. No. 4,583,956, issued to Nelson on Apr. 22, 1986, entitled RIGID AND TELESCOPING STRUT MEMBERS CONNECTED BY FLEXIBLE TENDONS, discloses a "construction kit consisting of rigid or telescoping elongate strut members which may be attached together by flexible tendons to form a variety of designs and model structures. The invention places no limits on the number of struts which can be attached at one vertex or their relative angles, and the length of each strut may be varied within broad limits. Furthermore, the end of one strut may be attached not only to the end of another, but to any point along its length. Accordingly, an almost unlimited variety of constructions is possible." Abstract.
U.S. Pat. No. 4,438,876 discloses a "back pack frame is comprised of tubular frame members which upon separation permit extraction of pairs of tent frame components stowed therein. The frame members and tent frame components are thereafter rejoinable to provide a geodesic tent frame. The tent frame components, upon extraction from a stowed position within the back pack frame members, are positioned in a divergent manner as permitted by a wire hinge component interconnecting the paired tent frame components. The back pack frame members are slotted at their ends to permit such divergent positioning of the associated tent frame components and include limit stops to prevent complete separation of the tent frame components from their frame member. The back pack frame members themselves are coupled to one another by flexible wire inserts and, in a modified form, by molded socket members. A back pack bag may be supported either externally on the back pack frame or, alternatively, over frame members." Abstract. The disclosures of the above referenced prior art are hereby incorporated by reference.
None of the foregoing discloses or suggests solutions to the problems with the foregoing which do not fully satisfy the needs for s compact, light weight, fully portable and exceptionally strong, once assembled, collapsible support structure. The present invention satisfies those needs more effectively than the above described prior art.
A method and apparatus is described for providing a collapsible support structure, which may comprise a plurality of interconnected frame sections each of which may comprise a first elongated rigid member having a first end and a second end; a second elongated rigid member having a first end and a second end; wherein the first end of the first elongated rigid member and the second elongated rigid member are hingedly joined; a collapsible elongated member which may comprise an elongated flexible tensioning member connected between the second end of the of the first elongated rigid member and the second end of the second elongated rigid member; a first hollow tubular rigidizing member extending along a portion of the length of the elongated flexible tensioning member; a second hollow tubular rigidizing member extending along essentially the remainder of the length of the elongated flexible tensioning member; and a rigidizing sleeve member slideably mounted on the first or the second hollow tubular member and sized to slideably engage the other of the first and second hollow tubular when the first and second hollow tubular rigidizing members are essentially axially aligned and the rigidizing sleeve member is positioned to slideably engage each of the hollow tubular rigidizing members to form a collapsible elongated tubular member extending essentially between the second ends of each of the first and second elongated rigid members and having the elongated flexible tensioning member axially disposed therein. The apparatus and method may employ the interconnected frame sections on the form of a triangle or a parallelogram, and may form a portion of a geodesic structure, such as a truncated icosahedron, which in turn may have first and second lesser circle polygonal shapes, with the hingedly joined first ends of the first and second elongated rigid members being joined at a corner of the first lesser circle polygonal shape and the collapsible elongated tubular member forming a side of the second lesser circle polygonal shape. The method and apparatus may use one-piece elongated rigid members. The sections may form parallelograms using first, second and third elongated rigid members and first and second rigidizing means, with each of the rigidizing means in each section forming a side of a separate one of the lesser circle polygonal shapes.
FIGS. 4(a) and 4(b) show in more detail a rigidizing means according to an embodiment of the present invention;
FIG. 10(a) shows the embodiment of
Turning now to
As shown in
Turning now to
Turning now to FIG. 4(a) the apex 82b of the section 12a of the vertical walls of the structure 10 is shown in more detail to explain the interrelationship between the rigid members 14a, b and c, and the collapsible members 30a and by example 30b forming the section 12a. Each of the elongated rigid members 14a, b, and c may consist of an elongated wooden dowel 16. Each of the elongated rigid dowels 16 may have attached to either end thereof an eyelet, e.g., a screw-in eyelet 18. An upper flexible circumferential tensional support member, e.g., a length of rope (not shown) may extend through the eyelets 18 on the upper ends of the dowels 16 (not shown)--forming the elongated rigid structural members 14a and 14b, which may be positioned adjacent to each other forming an upright triangular portion 50a (
In the embodiment shown in FIG. 4(a) it can be seen that the collapsible member 30a (not shown in
Turning now to FIG. 4(b) it can be seen that the outer sleeve 70 is of a length that it can be slideably moved to enclose only the one or the other of the two tubes 62 and 64 such that the rigidity provided by the sleeve 70 engaging both the tubes 62 and 64 is eliminated. This enables the respective ends of the elongated rigid structural members, e.g., 14a, b and c, the former two of which were maintained in separation by the collapsible member 32a being rigidized, to move toward each other, enabling collapsing and folding of the structure 10, when done in conjunction with similarly removing the rigidity of each of the collapsible members 30a, b, c, d and e and 32a, b, c, d and e.
Turning now to
Turning now to
Turning now to
As described above and as depicted in the drawings in particular
As shown in
Turning now to
As shown it can be seen that the pop-in connectors 160 can be of great use, e.g., if a pole/strut, e.g., 14 or 16a were to break while the structure is erect. Without having to essentially disassemble the structure frame 10 by unthreading the entire, e.g., upper flexible circumferential support 40 or lower flexible circumferential support 42 to rethread it through an eyelet such as the eyelets 18 discussed above, the pop-in connector can be used to selectively engage one of the supports 40, 42 at the respective end of a pole/strut at only the specific location of the pole/strut being replaced.
One possible disadvantage of the pop-in connector 160 described above is that over time the flexible support 40, 42, if it is made of fiber as opposed to being a metal cable, could fray on the ends of the tubular pole/strut. alternatively, the metal capable used as a flexible support 40 or 42 may wear down the tubular ends of the pole/strut. To prevent either of these, at the loss of flexibility in replacing poles/struts while the structure is erected, a pop-in connector such as the pop-in connector 170 shown in
It will be understood that the tensioning means at, e.g., the base and the top of the vertical side walls of the structure 10 may be formed by rope or cable or the like and may be brought into tension simply by pulling on the rope or cable at a vertex, e.g. 80b and similarly, e.g., 82b, with the rope or cable attached, e.g., to an eyelet 18 on one of the dowels 16 forming part of the vertex, and looped through the other eyelet at the vertex, such that the tensionizing rope or cable exerts tension between each of the vertices, while the collapsible members 30a, b, c, d and e, or 32a, b, c, d and e, as applicable, are placed in compression. It will also be understood that the compactibility of the structure 10 of the present invention may be increased, and the height of the vertical walls formed by the sections 12a, b, c, d and e maintained by making the rigid members, e.g., 14a, b and c, themselves collapsible, e.g., by forming them of a two piece hinged construction as is known in the art for such supporting struts for collapsible structures and frames. In addition, the height of the vertical walls may be increased by adding a third or a fourth or more set of sections defined by another pair of adjacent lesser circle pentagons connected by rigid struts, e.g., in the triangular pattern as shown in
The collapsible support structure of the present invention provides a number of advantages beyond simply being collapsible and storable in a relatively compact form in a storage bag and being relatively easy to assemble and rigidize and collapse and store. No ropes or tie downs are needed to hold the erected structure having placed over it one of a number of forms of plastic, fabric or hybrid covers to form, e.g., a tent or other generally water tight enclosure. The ropes inside the collapsible frame structure of the present invention provide the hold down function simply by the weight of the cover over the structure, or alternatively, if, e.g., because of high winds, etc. weighted bags filled with, e.g., sand or water can be place over the bottom horizontal collapsible members. this can be especially beneficial on surfaces that are exceptionally hard, e.g., pure rock, or exceptionally soft, e.g., sand, where tie downs are difficult if not impossible to anchor. The structure is also adaptable to a large variety of terrains, including relatively steep slopes, and the ability to suspend hammocks from the upper vertices of the structure are not impacted by the structure being on such a slope. Furthermore if the structure, once assembled needs to be moved, e.g., having been initially erected over an ant hill, it can be lifted and moved fully assembled relatively easily due to its rigidity and light weight.
In use the collapsible support structure of the present invention can be a form of rapidly deployable emergency shelter. The ability to hang hammocks from the vertices of the frame enable use in wet conditions even if the frame does not support a covering forming a tent with an integral floor.
In operation the collapsible support structure of the present invention can be erected by the following process. The structure is first removed from the storage bag. The user can simply open the carrying bag and stand the collapsed structure in the veticle collapsed position. The five lower horizontal collapsible members will naturally fall away from the vertical poles, with the upper horizontal collapsible members remaining suspended from the upper ends of the vertical poles the user can then spread tot lower horizontal collapsible support members to form the lower pent by moving the vertical poles outwardly from the stored compacted assembly. Leaving the upper collapsible horizontal support members in the broken down condition, the user can rigidize the lower horizontal collapsible members to form a rigidized pent at the bottom of the structure. With the apex of the roof poles connected by an apex ring as described above and the upper horizontal collapsible members remaining un-rigidized, and or un-tightened, the roof poles can be moved to above the horizontal plane of the upper horizontal collapsible members. The upper horizontal collapsible members can then be rigidized. Both the lower horizontal collapsible members and upper horizontal collapsible members can be rigidized by, e.g., threading the respective upper or lower flexible circumferential support member, e.g., rope or cable through an anchor ring at the opposite end of the cable or rope and held in place at one of the apexes/vertexes 80a, b, c, d and e or 82a, b, c, d and e and tightening the rope or cable by hand or with a mechanical tightener so that the respective horizontal lesser circle is in compression. This can be done, e.g., with the user standing inside of the frame under assembly and holding the roof poles upward to form a roof apex, while tightening the upper collapsible horizontal support members. The upper apexes will be generally centered over the centers of the lower collapsible support members and the upper collapsible structural members will be centered generally over the junctions between the bottom collapsible support structural members.
A further application of the present invention to form a collapsible structure support can include other geodesic structures that are able to be formed and broken down according to the present invention, e.g., icosa, octa, tricon, etc., especially in multi-frequency large structures, e.g., using cables with somewhat heavier hardware.
The present invention has been described with respect to preferred embodiments. It will be understood by those skilled in the art that many variations and modification of the disclosed preferred embodiments may be made without changing or departing from the scope and spirit of the present invention, e.g., other forms of sleeves and tubes apart from those illustrated which maintain compression by the abutment of the inner tubes within the outer sleeve may be employed as known in the art, e.g., a sleeve with flouted ends and a more narrow central section such that the tubes coact with the narrowed center portion of the sleeve to create the compressive force. IN addition, the sleeve itself could be the internal tubular structure, e.g., having a protrusion that slides along a slot in one or the other of the two tubes running the length of a collapsible member, e.g., 32a, so as to be able to be moved from a position in which the sleeve (now an internally disposed sleeve) slideably internally engages both of the other tubes to one in which it so engages only one of the other tubes, similarly to the configuration as shown in FIG. 5. Other such modifications may be made to the mechanical structural elements of the present invention, e.g., the dowels could be replaced with solid or hollow metal rods, or even generally flat struts, particularly if a hinged construction of the struts is desired, all of which may be made, e.g., of metal, e.g., made of aluminum, and/or the eyelets could be replaced with holes bored through the rigid structural members, whether such are wooden of metal, hollow or tubular or flat in construction. The present invention, therefore, should not be limited to any preferred embodiments disclosed in this application and should be considered described and claimed only through the following claims.
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